KR20190098083A - System and apparatus for laminating optical film - Google Patents

Abstract

The present invention relates to an optical film laminating system, which is to laminate an optical film on a panel for manufacturing a display unit. The optical film laminating system according to an embodiment of the present invention, comprises: a first panel transfer unit including a plurality of transfer rollers for supporting and transferring a panel from a lower side thereof; a second panel transfer unit for adsorbing and transferring the panel from either an upper or lower side thereof; a laminating unit including first and second roller units vertically spaced apart from each other, as a means for laminating an optical film on the panel; and a control unit for setting a laminating mode of the optical film for the panel in accordance with an attachment condition to at least one of a first mode, which inputs the panel and the optical film between the first and second roller units to allow the optical film to be laminated on the panel, and a second mode, which absorbs and transfers the panel by the second panel transfer unit, and inputs the optical film between an attachment roller unit of any one of the first and second roller units and the panel to allow the optical film to be laminated on the panel.

Description

Optical film laminating system and device {SYSTEM AND APPARATUS FOR LAMINATING OPTICAL FILM}

The present invention relates to an optical film laminating system and apparatus for laminating an optical film on a panel for the manufacture of a display unit.

The display unit may be manufactured by attaching a functional optical film such as a polarizing film and / or a retardation film, a brightness enhancement film, or a diffusion film on the surface of the panel.

1 is a side view schematically showing an optical film laminating system according to an example of the prior art.

In general, the optical film 1 and the panel 2 are inserted between the pair of rollers 3 and 4 for continuous lamination of the optical film, and the panel 2 is rotated by the rotation of the pair of rollers 3 and 4. ), The optical film 1 is laminated.

On the other hand, in this manner, the panel 2 and the optical film 1 are conveyed together by the pair of rollers 3 and 4, so that the meandering is likely to occur, respectively, which may cause a problem of deterioration of the attachment accuracy.

On the other hand, the attachment conditions required may vary depending on the specifications of the display unit. Specifically, the attachment precision may be required differently according to the display unit specification.

The optical film laminating system shown in FIG. 1 may be used for a display unit of a type requiring relatively low adhesion accuracy, but the optical unit shown in FIG. 1 may be used for a display unit of a type requiring relatively high adhesion accuracy. Film laminating systems may not be suitable.

Of course, there may also be optical film laminating systems for the manufacture of display units of the type that require relatively high adhesion accuracy.

However, since the demand for a plurality of types of display units will vary depending on the amount of required quantity and the required time, it is a waste of space and equipment to have all the optical film display units suitable for each. Will result.

The background art described above is technical information possessed by the inventors for the derivation of the embodiments of the present invention or acquired in the derivation process, and may be referred to as a publicly known technology disclosed to the general public before the application of the embodiments of the present invention. none.

Embodiments of the present invention are to provide a single optical film laminating system and apparatus capable of manufacturing all of a plurality of types of display units according to the attachment conditions.

An optical film laminating system according to an embodiment of the present invention, the first panel conveying unit including a plurality of conveying roller capable of conveying by supporting the panel from the lower side; A second panel transfer unit capable of absorbing and transferring the panel from either one of the upper side and the lower side; As a means for laminating an optical film to the panel, a laminating unit comprising a first roller portion and a second roller portion spaced apart up and down; and laminating mode of the optical film to the panel according to the attachment conditions, the first roller The panel and the optical film is put together between the second and the second roller unit to the first mode to allow the optical film to be laminated to the panel and the second panel transfer unit to absorb and transport the panel A control unit which sets an optical film between at least one of the first roller unit and the second roller unit and the panel to set at least one of the second modes to allow the optical film to be laminated to the panel; It may include.

In the present embodiment, when the laminating mode of the optical film for the panel by the control unit is set to the second mode, the first roller portion and the second roller portion with the panel between the second panel transfer unit And on the opposite side.

In the present embodiment, when the laminating mode of the optical film for the panel by the control unit is set to the second mode, the non-attached roller portion of the first roller portion and the second roller portion, which is not the attached roller portion, 2 panel transfer unit may be arranged so as not to overlap with the trajectory of the transport.

In the present embodiment, the roller portion located at a position closer to the second panel transfer unit among the first roller portion and the second roller portion, the upper portion disposed up and down with a support roller and the support roller in between. It may include a roller and a lower roller.

In the present embodiment, when the laminating mode of the optical film with respect to the panel is set to the first mode by the controller, the second panel transfer unit is before the rotation of the first roller portion and the second roller portion is performed. A portion of the panel can be adsorbed and fixed for a period of time.

In the present embodiment, when the laminating mode of the optical film to the panel by the control unit is set to the second mode, the attachment roller unit presses the optical film to the panel that is adsorbed and transported by the second panel transfer unit. Can be laminated.

In the present embodiment, the optical film support further includes an optical film support for adsorbing and supporting the upstream portion located upstream of the optical direction of the optical film rather than the front end of the optical film laminated with respect to the panel, wherein the optical film support is optical with respect to the panel. While the film is being laminated, it can move along the conveying direction of the optical film while supporting the upstream portion of the optical film.

In the present embodiment, after the lamination of the optical film to the panel is completed, the optical film support portion, the release of the adsorption support of the optical film and then moved in the direction opposite to the conveying direction of the optical film lamination is complete optical film The upstream portion of the subordinated optical film can be adsorbed and supported.

In this embodiment, the attachment condition may be an attachment position precision of the optical film to the panel, wherein the attachment position precision required through the second mode is more than the attachment position precision required through the first mode. Can be high.

An optical film laminating apparatus according to an embodiment of the present invention, the first panel conveying unit including a plurality of conveying rollers that can be transported by supporting the panel from the lower side; A second panel transfer unit capable of absorbing and transferring the panel from either one of the upper side and the lower side; Means for laminating an optical film to the panel, Laminating unit comprising a first roller and a second roller spaced apart up and down; A laminating mode of the optical film to the panel according to the attachment conditions, the first to the panel and the optical film is put together between the first roller and the second roller portion so that the optical film can be laminated to the panel The mode and the second panel transfer unit to absorb and transport the panel, but the optical film is introduced between the panel and the attachment roller of any one of the first roller and the second roller. The laminating mode of the optical film with respect to the panel is switched from one of the first mode and the second mode to the other by the control unit and at least one of the second mode for allowing the panel to be laminated to the second mode. It may include a driving unit for moving at least one position of the first roller unit and the second roller unit.

According to the optical film laminating system according to an embodiment of the present invention, there is an advantage that can be manufactured in a single optical film laminating system, a plurality of types of display units that are divided according to the attachment conditions.

In particular, the laminating means of the optical film optimized according to the required attachment conditions may be different from each other, the optical film laminating system according to an embodiment of the present invention can simply switch the laminating means of the optical film optimized according to the attachment conditions. There is an advantage that it can.

Specifically, in the laminating of an optical film for manufacturing a display unit of a type requiring relatively low adhesion accuracy, the first method of introducing a panel and an optical film between a pair of rollers in terms of process efficiency to minimize processing time is Preferably, the second method of increasing the fixing time of the panel to minimize the meandering of the panel for laminating the optical optical film for the production of a display unit of the type that requires a relatively high adhesion accuracy is preferred. According to the optical film laminating system has the advantage that the implementation of both the first method and the second method.

1 is a side view schematically showing an optical film laminating system according to an example of the prior art.
2 is a side view schematically showing an optical film laminating system according to a first embodiment of the present invention.
3 is a schematic diagram schematically showing the operation of the main part of the optical film laminating system according to the first embodiment of the present invention when the laminating mode of the optical film is set to the first mode.
4 is a schematic diagram schematically showing the operation of the main part of the optical film laminating system according to the first embodiment of the present invention when the laminating mode of the optical film is set to the second mode.
5 is a schematic diagram schematically showing the operation of the main part of the optical film laminating system according to the second embodiment of the present invention when the laminating mode of the optical film is set to the first mode.
6 is a schematic diagram schematically showing the operation of the main part of the optical film laminating system according to the second embodiment of the present invention when the laminating mode of the optical film is set to the second mode.

The invention will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various forms, and only the present embodiments are intended to complete the disclosure of the present invention, and the general knowledge in the art to which the present invention pertains. It is provided to fully convey the scope of the invention to those skilled in the art, and the present invention is defined only by the scope of the claims. Meanwhile, the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. In this specification, the singular also includes the plural unless specifically stated otherwise in the phrase. As used herein, “comprises” and / or “comprising” refers to the presence of one or more other components, steps, operations and / or elements. Or does not exclude additions. Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms are only used to distinguish one component from another.

First, an optical film laminating apparatus used in an optical film laminating system according to an embodiment of the present invention to be described below, comprising: a first panel conveying unit including a plurality of conveying rollers capable of conveying by supporting a panel from below; A second panel transfer unit capable of absorbing and transferring the panel from either one of the upper side and the lower side; Means for laminating an optical film to the panel, Laminating unit comprising a first roller and a second roller spaced apart up and down; A laminating mode of the optical film to the panel according to the attachment conditions, the first to the panel and the optical film is put together between the first roller and the second roller portion so that the optical film can be laminated to the panel The mode and the second panel transfer unit to absorb and transport the panel, but the optical film is introduced between the panel and the attachment roller of any one of the first roller and the second roller. The laminating mode of the optical film with respect to the panel is switched from one of the first mode and the second mode to the other by the control unit and at least one of the second mode for allowing the panel to be laminated to the second mode. It may include a driving unit for moving at least one position of the first roller unit and the second roller unit.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

2 is a side view schematically showing an optical film laminating system according to a first embodiment of the present invention, Figure 3 is an optical according to a first embodiment of the present invention when the laminating mode of the optical film is set to the first mode It is a schematic diagram showing the operation process of the main part of the film laminating system, Figure 4 is an operation process of the main part of the optical film laminating system according to the first embodiment of the present invention when the laminating mode of the optical film is set to the second mode It is a schematic diagram schematically showing.

The optical film laminating system 1000 according to the first embodiment of the present invention relates to a system for laminating an optical film on a panel to manufacture a display unit capable of displaying an image.

The panel that can be applied to the optical film laminating system 1000 may be a liquid crystal panel having a liquid crystal layer, an OLED panel having an organic EL layer, and the like, and may be a polarizing film, a diffusion film, a brightness enhancement film, or an antireflection film. Any panel can be applied as long as the optical film requiring an optical function such as the panel needs to be laminated.

The optical film may have a laminate structure in which a plurality of films are stacked. The plurality of film types forming the laminate structure of the optical film and the number of layers laminated therein may vary. Hereinafter, for convenience of description, the structure of the optical film F may include a polarizing film F1 and one surface of the polarizing film. For example, a form in which a protective film F2 for protecting the side and a release film F3 adhered to the other surface side of the polarizing film F1 is laminated for continuous supply of the polarizing film. In addition, in order for the optical film F to be laminated to the panel P, since the release film F3 needs to be peeled off and the adhesive layer needs to be exposed on the side from which the peeling film F3 is peeled, a detailed description thereof will be omitted. Even if the structure of the optical film (F) during the lamination to the panel (P) is assumed that the release film (F3) is peeled off.

The optical film laminating system 1000 is an optical film supply unit 100, an optical film cutting unit 200, a peeling unit 300, a release film recovery unit 400, a first panel transfer unit 500, a second The panel transfer unit 600 may include a laminating unit 700, an optical film support 800, and a controller (not shown).

The optical film supply unit 100 is tensioned on the supply roll 110 and the optical film F that are long unfolded, which can release and supply the optical film F while the optical film F formed long along the longitudinal direction is wound. It may include a plurality of support rolls 120 to support the end.

The optical film cutting unit 200 forms a plurality of sheet pieces corresponding to the size of the panel P in order to form the optical film F that is continuously supplied. It may be provided with a cutting means that can be repeatedly cut along the width direction as much as. Such cutting means may be a circular blade, a laser device or the like. Meanwhile, the cutting of the optical film may use a so-called 'half-cutting' method in which the release film F3 is left without cutting so that the optical film can be continuously transferred until laminated to the panel. In addition, when a defect is included on the optical film, a so-called 'skip-cut' cutting process may be used so that the defective area including the defect may be excluded. On the other hand, an imaging device (cam) can be used to determine the position of the optical film for the defect or cutting of the optical film.

The peeling unit 300 may peel off the release film F3 on the optical film F in order to laminate the optical film F on the panel P. The peeling unit 300 may include the edge portion 310 so that the transport path may be changed by refolding the release film F3 to peel the release film F3 from the half-cut optical film sheet formed. have.

The release film recovery unit 400 may include a recovery roll 410 to wind and recover the release film F3 peeled off by the peeling unit 300.

 The first panel transfer unit 500 is a means for transferring the panel P before the optical film F is laminated to the panel P and / or after the optical film F is laminated to the panel P. Can be. The first panel transport unit 500 may include a plurality of transport rollers 510 spaced apart along the transport direction of the panel (P).

The second panel transfer unit 600 may be a means for transferring the panel P while the optical film F is laminated to the panel P, before the optical film F is laminated to the panel P. . The second panel transfer unit 600 may absorb and transport the panel P from either one of the upper side and the lower side. The second panel transfer unit 600 has an adsorption plate 610 for supporting and adsorbing the panel P by vacuum or the like on either one of the upper and lower sides thereof, and a horizontal guide unit for guiding the horizontal transfer of the adsorption plate 610. 620 and a connection part 630 connecting the adsorption plate 610 and the horizontal guide part 620. The connection part 630 may serve as a guide to allow the adsorption plate 610 to reciprocate in the vertical direction. Hereinafter, for convenience of description, it will be described on the assumption that the second panel transfer unit 600 absorbs and transports the panel P from the upper side.

The laminating unit 700 is a means for laminating the optical film F to the panel P. The laminating unit 700 may include a first roller portion 710 and a second roller portion 720 which are spaced apart vertically.

In the first embodiment, the first roller portion 710 located at a position closer to the second panel transfer unit 600 among the first roller portion 710 and the second roller portion 720 is the support roller 711. ) And an upper roller 712 and a lower roller 713 disposed up and down with the support roller 711 therebetween. Here, the support roller 711 may support the upper roller 712 and the lower roller 713 to prevent the bending deformation of the upper roller 712 and the lower roller 713.

Among the first roller part 710 and the second roller part 720, the second roller part 720 positioned at a position further apart from the second panel transfer unit 600 includes a support roller 721 and a support roller ( It may include an attachment roller 722 is disposed on the upper or lower portion of the 721 is supported by the support roller 721. Here, the support roller 721 may support the attachment roller 722 to prevent the bending deformation of the attachment roller 722. In this embodiment, since the second panel transfer unit 600 is positioned above the panel P, and the optical film is laminated on the lower surface of the panel P, the panel panel unit 600 is directed toward the lower surface of the panel P. Attachment roller 722 for pressing and laminating the optical film (F) should be located above the support roller 721.

The optical film support 800 is more optical than the tip of the optical film F laminated to the panel P to prevent meandering of the optical film F while the optical film F is laminated to the panel P. The upstream portion located on the upstream side of the film in the conveying direction can be adsorbed and supported.

The optical film support part 800 may move along the conveying direction of the optical film F while adsorbing and supporting the upstream portion of the optical film F while the optical film F is laminated with respect to the panel P. step a)

The optical film support part 800 completes laminating of the optical film F with respect to the panel P (specifically after laminating the optical film sheet piece), and releases the adsorption support of the optical film, and then the optical film It can be moved in the opposite direction to the conveying direction of, so as to adsorb and support the upstream portion of the subordinated optical film than the optical film on which lamination is completed (specifically, the optical film sheet on which lamination is completed). ((B) step)

In this way, the driving of the optical film support part 800 is repeated steps (a) and (b).

The controller (not shown) may set the laminating mode of the optical film on the panel to at least one of a first mode and a second mode according to an attachment condition. The controller is a circuit board and an integrated circuit chip for controlling the first roller unit 710, the second roller unit 720 and / or the second panel transfer unit 600 according to the embodiment and the laminating mode of the optical film for the panel. It can be implemented in various forms such as a series of computer programs, firmware, software, and the like mounted on hardware.

In the first mode of the laminating mode of the optical film for the panel, the panel and the optical film (F) are put together between the first roller portion 710 and the second roller portion 720 which are spaced up and down, and the optical film ( It may be a mode that allows F) to be laminated to the panel P. FIG.

The second mode of the laminating mode of the optical film with respect to the panel, the panel P by the second panel transfer unit 600 is absorbed and transported, but any one of the first roller portion 710 and the second roller portion 720 The optical film F may be input between one attachment roller part and the panel P so that the optical film F may be laminated to the panel P.

When the laminating mode is set to the first mode or the second mode by the controller, the first roller part 710 and / or the second roller part 720 may be moved to a required position in each mode by a predetermined driving unit. do. The driving unit may include a moving part connected to the first roller part and / or the second roller part, a guide part for guiding the moving direction of the moving part, and a motor for providing power to move the moving part when power is supplied. If the drive unit is configured to move the position of the first roller portion and / or the second roller portion may be changed in various forms and structures.

Here, the attachment condition may be the attachment position precision of the optical film to the panel, the attachment position precision required through the second mode may be higher than the attachment position precision required through the first mode. For example, the attachment position precision required through the first mode may be on the order of 300 μm tolerance, and the attachment position precision required through the second mode may be on the order of 200 μm tolerance.

When the laminating mode of the optical film for the panel is set to the first mode by the control unit, the panel P and the optical film F together for the laminating of the optical film for the panel, the first roller part 710 and the second It may be introduced between the roller portion 720. Then, the lower roller 713 of the first roller portion 710 and the attachment roller 722 of the second roller portion 720 are adjacent to each other to rotate while pressing a portion of the panel P and the optical film F. As the panel P and the optical film F are transferred in one direction, the optical film F is laminated to the panel P.

When the laminating mode of the optical film with respect to the panel is set to the first mode, the area of the panel P to be laminated is located upstream or downstream from the laminating unit 700 with respect to the conveying direction of the panel P. It is preferable that it is supported by one panel conveying unit.

On the other hand, when the laminating mode of the optical film with respect to the panel is set to the first mode, a portion of the panel (P) is part of the second panel before the rotation of the first roller portion 710 and the second roller portion 720 is performed. It is preferable to be fixed by the transfer unit 600. Specifically, the adsorption plate 610 supports the front end portion P_a of the panel P with the first roller portion 710 and the second roller portion (L) while adsorbing and supporting a portion other than the front end portion P_a of the panel P. The position of the panel P may be aligned and inserted between 720. Thereafter, the first roller part 710 and the second roller part 720 are adjacent to each other and press the tip part P_a of the panel P and the tip part of the optical film F to press the tip part P_a of the panel P. And the tip of the optical film (F) can be aligned. That is, immediately before the lamination of the optical film F with respect to the panel P, specifically, just before the rotation of the first roller part 710 and the second roller part 720 is performed, the panel P and the optical film. Positioning of (F) can be performed to improve the adhesion accuracy of the optical film (F).

When the laminating mode of the optical film to the panel is set to the second mode by the control unit, the panel P is sucked by the second panel transfer unit 600 while the optical film F is laminated to the panel P. In order to be transported, the optical film F may be inserted between the attachment roller part of the first roller part 710 and the second roller part 720 and the panel P. In addition, the attachment roller may press the optical film F to be laminated by the panel P, which is adsorbed and transferred by the second panel transfer unit 600.

Specifically, in the first embodiment, when the laminating mode of the optical film to the panel by the control unit is set to the second mode, the first roller was spaced apart up and down with the panel (P) in the first mode reference The part 710 and the second roller part 720 may both move to the lower side of the panel P in the second mode. Thus, the first roller part 710 and the second roller part 720 are opposite to the second panel transfer unit 600 with the panel P therebetween (of the embodiment reference panel P of FIG. 4). Disposed on the lower side), the second panel transfer unit 600 may be in a state capable of transferring the panel P in one direction (left direction based on FIG. 4) without interference of the laminating unit 700. In addition, the first roller part 710 located at a position closer to the second panel transfer unit among the first roller part 710 and the second roller part 720 functions as the attachment roller part in the second mode.

At this time, the front end portion P_a of the panel P and the front end portion of the optical film F are aligned, and then the upper roller 712 of the first roller portion 710 is adjacent to the lower surface of the panel P. It is preferable to press the tip of F) to the lower surface of the panel P. Then, the suction plate 610 is transferred in parallel with one direction (left direction of FIG. 4) of the horizontal guide part 620, and the upper roller 712 of the first roller part 710 is synchronized with the feeding speed thereof. By rotating, the optical film F is laminated to the panel P. FIG. Meanwhile, while the optical film F is laminated to the panel P, the transfer of the panel P is performed by the adsorption plate 610 which is transferred along one direction of the horizontal guide part 620, so that the panel P The meandering of the optical film can be minimized so that the adhesion accuracy of the optical film can be improved compared to the first mode.

After the lamination of the optical film is completed with respect to one panel P, the suction support of the panel P by the second panel transfer unit is released, and re-upstream from the laminating unit 700 based on the transport direction of the panel P. By moving to perform the process of transporting the panel (P) along the predetermined transport direction with the adsorption support for the subordinate panel (P), the process is repeated.

5 is a schematic diagram schematically showing the operation of the main part of the optical film laminating system according to the second embodiment of the present invention when the laminating mode of the optical film is set to the first mode, Figure 6 is a laminating mode of the optical film Is a schematic diagram schematically showing the operation of the main part of the optical film laminating system according to the second embodiment of the present invention when the second mode is set.

Since the laminating system of the optical film according to the second embodiment has most of the configuration and operation form the same as the laminating system of the optical film according to the first embodiment, the description thereof will be omitted and only the differences between the two will be described. .

In the first exemplary embodiment, the first roller part 710 located at a position closer to the second panel transfer unit 600 among the first roller part 710 and the second roller part 720 is the support roller 711. And, it has been described to include an upper roller 712 and a lower roller 713 disposed up and down with the support roller 711 therebetween.

On the other hand, in the second embodiment, the first roller portion 710 located at a position closer to the second panel transfer unit 600 among the first roller portion 710 and the second roller portion 720 is the upper roller. 712 may be omitted. On the other hand, the first roller portion 710 may be transferred along a predetermined transfer guide portion, a casing 710 'and the transfer guide portion to form an appearance of the first roller portion 710 and the casing 710' and It may include a connecting portion 714 to be connected. Here, the transfer guide portion may be replaced by the horizontal guide portion 620 in the second panel transfer unit 600.

Meanwhile, in the case of the first embodiment, when the laminating mode of the optical film for the panel is set to the second mode by the control unit, the first roller unit that is spaced up and down with the panel P interposed therebetween in the first mode reference ( 710 and the second roller portion 720 have been described as being moved to the lower side of the panel P in the second mode.

In contrast, in the case of the second embodiment, when the laminating mode of the optical film for the panel is set to the second mode by the controller, the ratio of the non-adhering roller portion of the first roller portion 710 and the second roller portion 720 is not. The attachment roller part may be disposed so as not to overlap with the feed trajectory T of the second panel transfer unit 600. Here, the second roller unit 720 located on the side opposite to the second panel transfer unit 600 (the upper side of the reference panel P of FIG. 6) on the basis of the panel P functions as an attachment roller unit in the second mode. The first roller portion 710 serves as a non-attached roller portion. In the second mode, the first roller part 710, which is the non-attached roller part, is connected to the connecting part 714 along the horizontal guide part 620 in parallel with the conveying direction of the panel P (the left direction of FIG. 6). It may be disposed so as not to overlap the feed trajectory (T) of the panel transfer unit 600. As a result, the second panel transfer unit 600 may be in a state capable of transferring the panel P in one direction (left direction based on FIG. 6) without interference of the laminating unit 700.

Then, in order to laminate the optical film F with respect to the panel P, the front end portion P_a of the panel P and the front end portion of the optical film F are aligned, and then the attachment roller 722 of the second roller portion 720 is aligned. ) Is preferably adjacent to the lower surface of the panel P to press the tip of the optical film F to the lower surface of the panel P. Then, the adsorption plate 610 is transported in parallel with one direction of the horizontal guide part 620 (left direction of Fig. 6), and the attachment roller 722 of the second roller part 720 is synchronized with the feed speed thereof. By rotating, the optical film F is laminated to the panel P. FIG. In the second embodiment, like the first embodiment, while the optical film F is laminated on the panel P, the transfer of the panel P is carried along one direction of the horizontal guide part 620. Since the meandering of the panel P can be minimized, the adhesion accuracy of the optical film can be improved compared to the first mode.

According to the optical film laminating system according to an embodiment of the present invention, there is an advantage that can be manufactured in a single optical film laminating system, a plurality of types of display units that are divided according to the attachment conditions.

In particular, the laminating means of the optical film optimized according to the required attachment conditions may be different from each other, the optical film laminating system according to an embodiment of the present invention can simply switch the laminating means of the optical film optimized according to the attachment conditions. There is an advantage that it can.

Specifically, in the laminating of an optical film for manufacturing a display unit of a type requiring relatively low adhesion accuracy, the first method of introducing a panel and an optical film between a pair of rollers in terms of process efficiency to minimize processing time is Preferably, the second method of increasing the fixing time of the panel to minimize the meandering of the panel for laminating the optical film for manufacturing a display unit of a type that requires a relatively high adhesion accuracy, according to an embodiment of the present invention The optical film laminating system has an advantage in that both the first and second methods can be implemented.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it is possible to make various modifications or variations without departing from the spirit and scope of the invention. Accordingly, the appended claims will include such modifications and variations as long as they fall within the spirit of the invention.

1000: Optical Film Laminating System
100: optical film supply unit
200: optical film cutting unit
300: peeling unit
400: release film recovery unit
500: first panel transfer unit
600: second panel transfer unit
700: laminating unit
710: first roller portion
711: support roller
712: Upper roller
713: lower roller
720: second roller portion
800: optical film support
F: optical film
P: Panel

Claims (10)

A first panel conveying unit comprising a plurality of conveying rollers capable of conveying by supporting the panel from the lower side;
A second panel transfer unit capable of absorbing and transferring the panel from either one of the upper side and the lower side;
Means for laminating an optical film on the panel, Laminating unit comprising a first roller and a second roller spaced apart up and down; And
A laminating mode of the optical film to the panel according to the attachment conditions, the first to the panel and the optical film is put together between the first roller and the second roller portion so that the optical film can be laminated to the panel The mode and the second panel transfer unit to absorb and transport the panel, but the optical film is introduced between the panel and the attachment roller of any one of the first roller and the second roller. And a control unit configured to set at least one of the second modes to be laminated to the panel. The method of claim 1,
When the laminating mode of the optical film for the panel is set to the second mode by the controller, the first roller portion and the second roller portion are disposed on the opposite side to the second panel transfer unit with the panel therebetween. , Optical film laminating system. The method of claim 1,
When the laminating mode of the optical film with respect to the panel is set to the second mode by the controller, the non-attached roller portion of the first roller portion and the second roller portion, which is not the attached roller portion, is transferred to the second panel transfer unit. An optical film laminating system arranged to not overlap an orbit. The method of claim 2,
The roller unit positioned at a position closer to the second panel transfer unit among the first roller unit and the second roller unit includes a support roller, and upper and lower rollers disposed up and down with the support roller therebetween. Optical film laminating system. The method of claim 1,
When the laminating mode of the optical film with respect to the panel is set to the first mode by the control unit, the second panel conveying unit is configured to allow the first roller unit and the second roller unit to rotate during the predetermined period of time before rotation is performed. An optical film laminating system for adsorbing and fixing a portion. The method of claim 1,
When the laminating mode of the optical film with respect to the panel is set to the second mode by the control unit, the attachment roller unit is pressed by the optical film to the panel that is adsorbed by the second panel transfer unit, the laminating, the optical film Laminating system. The method of claim 1,
It further comprises an optical film support for adsorbing and supporting the upstream portion located on the upstream side of the optical direction of the optical film than the leading end of the optical film laminated to the panel,
And the optical film support moves along the conveying direction of the optical film while adsorbing and supporting the upstream portion of the optical film while the optical film is laminated with respect to the panel. The method of claim 7, wherein
After the lamination of the optical film to the panel is completed, the optical film support unit releases the adsorption support of the optical film and then moves in the direction opposite to the conveying direction of the optical film, so that the upstream of the optical film having a lower priority than the optical film on which the laminating is completed. The optical film laminating system which adsorbs and supports a part. The method of claim 1,
The attachment condition may be an attachment position precision of the optical film with respect to the panel, wherein the attachment position precision required through the second mode is higher than the attachment position precision required through the first mode. . A first panel conveying unit comprising a plurality of conveying rollers capable of conveying by supporting the panel from the lower side;
A second panel transfer unit capable of absorbing and transferring the panel from either one of the upper side and the lower side;
Means for laminating an optical film to the panel, Laminating unit comprising a first roller and a second roller spaced apart up and down;
A laminating mode of the optical film to the panel according to the attachment conditions, the first to the panel and the optical film is put together between the first roller and the second roller portion so that the optical film can be laminated to the panel The mode and the second panel transfer unit to absorb and transport the panel, but the optical film is introduced between the panel and the attachment roller of any one of the first roller and the second roller. A controller configured to set at least one of the second modes to be laminated to the panel;
A drive for moving at least one of the first roller portion and the second roller portion as the laminating mode of the optical film with respect to the panel is switched from one of the first mode and the second mode to the other by the controller; An optical film laminating device comprising a unit.

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